阅读说明：本技术 一种面膜切片混料装置 (Facial mask section compounding device ) 是由 雷春艳 于 2021-09-11 设计创作，主要内容包括：本发明涉及一种面膜切片混料装置,属于面膜裁剪技术领域；本发明的技术要点是：一种面膜切片混料装置,包括机架、刀架、工作台、送料板、显示屏、刀具组、传动轴、伺服电机、电机和紫外线灯,本发明采用面膜式样的刀具对无纺布进行裁剪,再采用分段刀具,单个切出,快速完整的切出面膜式样,同时可拆卸的刀具也能依据不同人群,随意拆卸更换,大大提高了面膜的式样种类以及生产效率；本发明制备的面膜切片混料装置可以一次性裁剪多张无纺布,在裁剪无纺布的同时,工作台上的孔隙可以将精华液喷涂进膜布中,使其充分浸润面膜,不仅提高生产效率,减少生产成本,同时能有效减轻技术人员的工作负担,具有广阔的应用前景。(The invention relates to a facial mask slice mixing device, belonging to the technical field of facial mask cutting; the technical points of the invention are as follows: a facial mask slice mixing device comprises a rack, a knife rest, a workbench, a feeding plate, a display screen, a knife group, a transmission shaft, a servo motor, a motor and an ultraviolet lamp, wherein a facial mask style knife is adopted to cut non-woven fabrics, and then a segmented knife is adopted to cut out facial mask styles individually, so that the facial mask styles are cut out rapidly and completely, and meanwhile, the detachable knife can be detached and replaced randomly according to different people, so that the style types and the production efficiency of facial masks are greatly improved; the facial mask slice mixing device prepared by the invention can cut a plurality of non-woven fabrics at one time, and when the non-woven fabrics are cut, the pores on the workbench can spray essence into the membrane cloth, so that the membrane cloth is fully soaked, the production efficiency is improved, the production cost is reduced, the workload of technicians can be effectively reduced, and the facial mask slice mixing device has a wide application prospect.)

1. The utility model provides a facial mask section compounding device, includes frame (1), knife rest (2), workstation (3), delivery sheet (4), display screen (5), cutter group (6), transmission shaft (7), servo motor (8) and motor (9), its characterized in that:

a workbench (3) is arranged at the horizontal central line position of the rack (1), a knife rest (2) is arranged above the workbench (3), a display screen (5) is arranged above the knife rest (2), and the top end of the display screen (5) is fixedly connected to the top end of the rack (1);

the workbench (3) penetrates through the horizontal center line of the rack (1) and is detachably connected to the rack (1), the upper surface of the workbench (3) takes the projection of the tool rest (2) as a boundary, the workbench (3) is dynamically divided, the workbench (3) is in front of the projection of the tool rest (2), the charging platform (301) is behind the projection of the tool rest (2), the charging platform (301) is connected with the feeding plate (4) in a sliding manner, the distance between the two ends of the feeding plate (4) is equal to the width of the charging platform (301), the two ends of the feeding plate (4) are provided with baffle plates (401), the outer sides of the baffle plates (401) are respectively provided with a right-end moving block (402) and a left-end moving block (403), the upper part of the right-end moving block (402) is provided with a U-shaped groove, the side surface of the U-shaped groove is connected with the feeding plate (4) in a clamping and embedding manner, the baffle plates (401) are connected in the U-shaped groove, the lower end of the U-shaped groove is connected with the charging platform (301) in a sliding manner, and the bottom end of the right-end moving block (402) is fixedly connected with a sliding plate (404), the center line position of the sliding plate (404) is fixedly connected with a lead screw nut seat (803); the left end moving block (403) and the right end moving block (402) are symmetrically distributed by the central line of the sliding plate (404);

a servo motor (8) is arranged below the workbench (3), the servo motor (8) is rotatably connected with a lead screw (801), the starting position of a front thread of the lead screw (801) is rotatably connected with a head bearing seat (802), the ending position of a tail thread of the lead screw (801) is rotatably connected with a tail bearing seat (804), and a lead screw nut seat (803) is in threaded connection between the head bearing seat (802) and the tail bearing seat (804); connectors (305) are symmetrically distributed on two sides of the screw (801), the connectors (305) are fixedly connected below the workbench (3), the connectors (305) are connected to a bearing table (103) in the central line position of the rack (1) in a clamping and embedding manner, a groove is formed in the central line position of the bearing table (103) and used for allowing the screw (801) to penetrate through, and a storage compartment (101) is formed between the lower part of the bearing table (103) and the bottom of the rack (1);

a transmission shaft (7) is arranged on the right side of the workbench (3), the front section of the transmission shaft (7) is in key connection with a first transmission arm (701), the first transmission arm (701) is in key connection with a second transmission arm (702), the tail end of the second transmission arm (702) is fixedly connected with a moving shaft (704), and the moving shaft (704) is connected in the sliding groove (205) in a sliding manner; the rear section of the transmission shaft (7) is rotatably connected with a second belt pulley (902), a belt (903) is arranged on the second belt pulley (902), the belt (903) is rotatably connected with a first belt pulley (901), the first belt pulley (901) is rotatably connected with a motor (9), and the motor (9) is fixedly connected into a storage compartment (101) on the right side of the bottom of the rack (1); a T-shaped belt (904) is further arranged on the second belt wheel (902), and the T-shaped belt (904) is rotationally connected with a gear set (905);

the left end of the tool rest (2) is connected into a through hole in the left side of the rack (1) in a sliding manner, a lightening groove is formed in the center of the tool rest (2), a through groove (201) is formed between the lightening groove and the left end, a first gear shaft (202) is vertically and fixedly connected into the through groove (201), the first gear shaft (202) is meshed with a first spur gear (105), the first spur gear (105) is rotatably connected to one end of a synchronous motor (102), the other end of the synchronous motor (102) is rotatably connected with a second spur gear (104), the second spur gear (104) is meshed with a second spur gear shaft (204), and the second spur gear shaft (204) is vertically and fixedly connected into a through hole in the left end of a pressing table (603);

the right end of the tool rest (2) is slidably connected with the rack (1), a sliding groove (205) is formed between the right end of the tool rest (2) and the right end of the lightening groove, an included angle between the central line of the sliding groove (205) and the horizontal line is 40-50 degrees, the sliding groove (205) is slidably connected with a moving shaft (704), a gear set (905) is arranged on the back of the right end of the tool rest (2), the axis of the gear set (905) is perpendicular to the central line of the sliding groove (205), the gear set (905) is meshed with a third gear shaft (203), and the third gear shaft (203) is fixedly connected in a vertical through hole at the right end of the pressing table (603);

the utility model discloses a quick-witted, including tool rest (2), tool rest (2) below is equipped with cutter group (6), cutter group (6) surface evenly distributed spread groove (606), spread groove (606) horizontal fixed connection tool bit (602), pass cutter (607) in tool bit (602), clamp plate (601) are accepted to cutter (607) upper end, boss (605) are accepted on clamp plate (601) upper portion, boss (605) fixed connection is in pressing platform (603) back, it is equipped with broach (604) to press platform (603) front, press platform (603) both sides to be equipped with perpendicular through-hole, the perpendicular through-hole fixed connection second gear axle (204) of left end, the perpendicular through-hole fixed connection third gear axle (203) of right-hand member, cutter (607) lower extreme is on a parallel with workstation (3) upper surface.

2. A facial mask slice compounding device according to claim 1, characterized in that the frame (1) is a cube, the upper part of the horizontal center line of the frame (1) is provided with a through hole, the bottom of the through hole is provided with a bearing platform (103), and the top of the through hole is provided with an ultraviolet lamp (10).

3. A facial mask slice compounding device according to claim 1, characterized in that through holes are evenly distributed on the surface of the workbench (3) and the charging platform (301), connecting holes (303) are arranged on the back surfaces of the workbench (3) and the charging platform (301), and the through holes on the surface of the workbench (3) and the charging platform (301) and the connecting holes (303) on the back surface are concentrically distributed.

4. A mask slice mixing device according to claim 1, wherein the connection hole (303) is externally connected with a water pipe (304).

5. A facial mask slice mixing device according to claim 1, wherein a key shaft (703) is arranged at the connection of the first transmission arm (701) and the second transmission arm (702).

6. A mask slice mixing device according to claim 1, wherein the width of the boss (605) is the same as the width of the pressing table (603), and the height of the boss (605) is between the horizontal middle line and the top end of the pressing table (603).

7. A facial mask slice mixing device according to claim 1, wherein the first spur gear (105) and the second spur gear (104) are symmetrically distributed about the axis of the synchronous motor (102).

8. A facial mask slice mixing device according to claim 1, wherein the storage compartment (101) is long between two side end faces of the frame and high between the lower part of the bearing platform (103) and the bottom of the frame (1), a detachable baffle (106) is arranged in the storage compartment (101), and the storage compartment (101) is divided according to actual operation requirements.

Technical Field

The invention relates to a facial mask slice mixing device, and belongs to the technical field of facial mask cutting.

Background

With the rapid development of social economy, people have certain requirements on the exterior, beauty treatment becomes a part of life, facial masks account for the main part of numerous beauty products, and the facial masks are used as products for face care no matter old, young, male and female, wherein the facial masks prepared by taking non-woven fabrics as base cloth and adding related essence are the most developed products among numerous whitening and moisturizing facial masks, and the facial masks are one of the most widely used beauty products due to convenient and rapid use and high skin attachment degree.

The non-woven fabric is used as a mask base material and needs to be cut in a whole, in the cutting preparation process of the mask, 3D cutting and common cutting are generally adopted, the 3D cutting is a mode of cutting the mask which is more recent than that of a fiery mask, the mask fit degree is higher by increasing the number of cutting knives, particularly, the positions of two ends of a nose wing can absorb essence of mask cloth in an arc-shaped area of a nose part, basic cutting is also 9-knife cutting, the basic cutting is a common cutting mode of the mask, gaps are reserved on two sides of eyes, the position of cheekbones and two sides of a chin, and the rapid absorption of the essence is facilitated; however, although the mask can be more fitted to the face by multi-blade cutting, the cost is greatly increased, and the high price makes general users, especially people who like to use the mask every day, unacceptable.

In the prior art of producing facial masks, a facial mask cutting machine is used for cutting facial masks, non-woven fabrics are placed on a horizontally sliding placing plate, a transverse cutter head is placed on the non-woven fabrics, and the transverse cutter head is pressed by pressing and weighing to enable the cutter head to cut the non-woven fabrics, so that the facial masks are obtained; putting the cut facial mask into a bag machine through folding, carrying out ozone sterilization and disinfection, then putting a sterilized membrane cloth into an essence room, fully soaking the membrane cloth, and finally sealing and packaging the soaked non-woven facial mask; therefore, a large number of working steps are needed from the cutting of the facial mask to the bagging, a factory building, sterile equipment and the like are needed to be newly set in the period, meanwhile, the existing cutting machine can only cut one piece of non-woven fabric at a time, and after the cutting is carried out, the transverse cutting cutter head needs to be reset to the position below the lower pressing cross beam, so that the next cutting can be carried out, and a large amount of time and money are needed for both the cutting of the base fabric and the packaging of the base fabric; in addition, the essence needs to be soaked after the membrane cloth is cut, the process flow of cutting the mask needs to be continuously repeated, the cost is further improved, and the efficiency is still low; the cutting machine prepared by the invention can cut a plurality of non-woven fabrics at one time, and when the non-woven fabrics are cut, the pores on the workbench can spray essence into the membrane cloth, so that the membrane cloth is fully soaked, the production efficiency is improved, the production cost is reduced, the workload of technicians can be effectively reduced, and the cutting machine has a wide application prospect.

Disclosure of Invention

The invention mainly solves the technical problems that: the invention provides a facial mask slicing and mixing device, aiming at the problems that the existing facial mask slicing machine mostly adopts a single-sheet and multi-cutting mode, the working efficiency is low, the facial mask needs to be subjected to processes of filling, bagging and the like after being cut, the working steps are repeated, the efficiency is low, and the cost is high.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a facial mask section compounding device, includes frame, knife rest, workstation, delivery sheet, display screen, cutter group, transmission shaft, servo motor and motor, its characterized in that: a workbench is arranged at the horizontal central line position of the rack, a knife rest is arranged above the workbench, a display screen is arranged above the knife rest, and the top end of the display screen is fixedly connected to the top end of the rack; the workbench penetrates through a horizontal center line position of the rack and is detachably connected to the rack, the upper surface of the workbench takes the projection of the tool rest as a boundary, the workbench is dynamically divided, the workbench is in front of the projection of the tool rest, the charging platform is behind the projection of the tool rest, the charging platform is connected with the feeding plate in a sliding manner, the distance between two ends of the feeding plate is equal to the width of the charging platform, two ends of the feeding plate are provided with baffle plates, a right-end moving block and a left-end moving block are respectively arranged outside the baffle plates, a U-shaped groove is arranged at the upper part of the right-end moving block, the side surface of the U-shaped groove is connected with the feeding plate in a clamping and embedding manner, the inside of the U-shaped groove is connected with the baffle plates in a sliding manner, the lower end of the U-shaped groove is connected with the charging platform in a sliding manner, the bottom ends of the right-end moving blocks are fixedly connected with sliding plates, and the center line position of the sliding plates is fixedly connected with a screw nut seat; the left end moving block and the right end moving block are symmetrically distributed by the central line of the sliding plate; a servo motor is arranged below the workbench and is rotationally connected with a lead screw, the starting position of a thread at the front part of the lead screw is rotationally connected with a head bearing seat, the ending position of a thread at the tail part of the lead screw is rotationally connected with a tail bearing seat, and a lead screw nut seat is in threaded connection between the head bearing seat and the tail bearing seat; connectors are symmetrically distributed on two sides of the screw rod, the connectors are fixedly connected below the workbench, the connectors are connected to a bearing table in a clamping and embedding manner at the central line position of the rack, a groove is formed in the central line position of the bearing table and used for allowing the screws to penetrate through, and a storage compartment is formed between the lower part of the bearing table and the bottom of the rack; a transmission shaft is arranged on the right side of the workbench, the front section of the transmission shaft is in key connection with a first transmission arm, the first transmission arm is in key connection with a second transmission arm, the tail end of the second transmission arm is fixedly connected with a moving shaft, and the moving shaft is connected in the sliding chute in a sliding manner; the rear section of the transmission shaft is rotatably connected with a second belt pulley, a belt is arranged on the second belt pulley, the belt is rotatably connected with a first belt pulley, the first belt pulley is rotatably connected with a motor, and the motor is fixedly connected in a storage compartment on the right side of the bottom of the rack; a T-shaped belt is further arranged on the second belt pulley and is rotationally connected with the gear set; the left end of the tool rest is connected into a through hole in the left side of the rack in a sliding manner, a lightening groove is formed in the center of the tool rest, a through groove is formed between the lightening groove and the left end, a first gear shaft is vertically and fixedly connected into the through groove, the first gear shaft is meshed with a first spur gear, the first spur gear is rotationally connected to one end of a synchronous motor, the other end of the synchronous motor is rotationally connected with a second spur gear, the second spur gear is meshed with a second gear shaft, and the second gear shaft is vertically and fixedly connected into a vertical through hole in the left end of the pressing table; the right end of the knife rest is connected with the rack in a sliding mode, a sliding groove is formed between the right end of the knife rest and the right end of the lightening groove, the included angle between the center line of the sliding groove and the horizontal line is 40-50 degrees, the sliding groove is connected with the moving shaft in a sliding mode, a gear set is arranged on the back face of the right end of the knife rest, the axis of the gear set is perpendicular to the center line of the sliding groove, the gear set is meshed with a third gear shaft, and the third gear shaft is fixedly connected in a vertical through hole in the right end of the pressing table; the tool rest is provided with a tool set below, the surface of the tool set is uniformly provided with connecting grooves, the connecting grooves are horizontally and fixedly connected with a tool bit, a tool passes through the tool bit, the upper end of the tool is connected with a pressing plate, the upper part of the pressing plate is connected with a boss, the boss is fixedly connected to the back of a pressing table, the front surface of the pressing table is provided with comb teeth, two sides of the pressing table are provided with vertical through holes, the left end of each vertical through hole is fixedly connected with a second gear shaft, the right end of each vertical through hole is fixedly connected with a third gear shaft, and the lower end of the tool is parallel to the upper surface of the workbench.

Preferably, the rack is a cube, a through hole is formed in the upper portion of the horizontal center line of the rack, the bottom of the through hole is a bearing table, and an ultraviolet lamp is arranged in a groove in the top of the through hole.

Preferably, through holes are uniformly distributed on the surfaces of the workbench and the charging platform, connecting holes are formed in the back surfaces of the workbench and the charging platform, and the through holes in the surfaces of the workbench and the charging platform and the connecting holes in the back surfaces of the workbench and the charging platform are concentrically distributed.

Preferably, the connection hole is externally connected with a water pipe.

Preferably, a key shaft is arranged at the joint of the first transmission arm and the second transmission arm.

Preferably, the width of the boss is consistent with the width of the pressing platform, and the height of the boss is between the horizontal center line of the pressing platform and the top end.

Preferably, the first spur gear and the second spur gear are symmetrically distributed on the axis of the synchronous motor.

Preferably, the storage compartment is long between the end surfaces of two sides of the rack, is higher between the lower part of the bearing platform and the bottom of the rack, and is internally provided with a detachable baffle plate which is used for dividing the storage compartment according to actual operation requirements.

The invention has the beneficial effects that:

(1) the invention designs a facial mask slicing and mixing device, wherein a facial mask style cutter is adopted to cut non-woven fabrics, a sectional cutter is adopted to cut out facial mask styles individually, the facial mask styles are cut out rapidly and completely, meanwhile, the size of the cut facial mask can be changed randomly according to different people, the facial mask can be made according to the requirements, the style types and the production efficiency of the facial mask are greatly improved, the production cost is greatly reduced due to one-time cutting out, and the made facial mask can be sold and used better and more widely.

The facial mask slice mixing device prepared by the invention can cut a plurality of non-woven fabrics at one time, and when the non-woven fabrics are cut, the pores on the workbench can spray essence into the membrane cloth, so that the membrane cloth is fully soaked, the charging process is eliminated, the production efficiency is improved, the production cost is reduced, the workload of technicians can be effectively reduced, and the facial mask slice mixing device has a wide application prospect.

Drawings

Fig. 1 is an isometric schematic view of a mask slice compounding device of the present invention.

Fig. 2 is a front view of the mask slice mixing device of the invention.

Fig. 3 is a rear view of the mask slice mixing device of the present invention.

Fig. 4 is a rear isometric view of a mask slice compounding device of the present invention.

Fig. 5 is a bottom isometric view of a mask slice mixing device of the present invention.

Fig. 6 is a schematic semi-sectional isometric view of a mask slice mixing device of the present invention.

Fig. 7 is a front view of a transmission structure of the mask slice mixing device.

Fig. 8 is a rear isometric view of a transmission structure of the mask slice mixing device according to the invention.

Fig. 9 is a schematic front isometric view of a transmission structure of the mask slice mixing device.

Fig. 10 is a three-view of the cutter structure of the mask slice mixing device of the invention.

Fig. 11 is an isometric view of a blade configuration of a facial mask slice compounding device of the present invention.

Fig. 12 is an exploded view of a cutter structure of the mask slice mixing device according to the present invention.

Wherein, 1, a frame; 101. a storage compartment; 102. a synchronous motor; 103. a bearing table; 104. a second spur gear; 105. a first spur gear; 106. a removable baffle; 2. a tool holder; 201. a through groove; 202. a first gear shaft; 203. a third gear shaft; 204. a second gear shaft; 205. a chute; 3. a work table; 301. a loading table; 4. a feeding plate; 401. a baffle plate; 402. a right moving block; 403. a left end moving block; 404. a slide plate; 5. a display screen; 6. a cutter set; 601. pressing a plate; 602. a cutter head; 603. pressing the table; 604. comb teeth; 605. a boss; 606. connecting grooves; 607. a cutter; 7. a drive shaft; 701. a first transmission arm; 702. a second drive arm; 703. a key shaft; 704. a movable shaft; 8. a servo motor; 801. a lead screw; 802. a head bearing seat; 803. a lead screw nut seat; 804. a tail bearing seat; 9. a motor; 901. a first pulley; 902. a second pulley; 903. a belt; 904. a T-shaped belt; 905. a gear set; 10. an ultraviolet lamp.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1-12, the facial mask slice mixing device provided by the invention comprises a rack 1, a knife rest 2, a workbench 3, a feeding plate 4, a display screen 5, a cutter group 6, a transmission shaft 7, a servo motor 8 and a motor 9, and is characterized in that:

the rack 1 is in a cube shape, a through hole is formed in the upper portion of a horizontal center line of the rack 1, a bearing table 103 is arranged at the bottom of the through hole, and an ultraviolet lamp 10 is arranged in a groove in the top of the through hole; a workbench 3 is arranged at the horizontal central line position of the rack 1, a knife rest 2 is arranged above the workbench 3, a display screen 5 is arranged above the knife rest 2, and the top end of the display screen 5 is fixedly connected to the top end of the rack 1; the workbench 3 penetrates through the horizontal center line of the rack 1 and is detachably connected to the rack 1, the upper surface of the workbench 3 takes the projection of the tool rest 2 as a boundary line, the workbench 3 is dynamically divided, the workbench 3 is arranged in front of the projection of the tool rest 2, the charging platform 301 is arranged behind the projection of the tool rest 2, the charging platform 301 is connected with the feeding plate 4 in a sliding manner, through holes are uniformly distributed on the surfaces of the workbench 3 and the charging platform 301, connecting holes 303 are formed in the back surfaces of the workbench 3 and the charging platform 301, and the connecting holes 303 are externally connected with water pipes 304; the through holes on the surfaces of the workbench 3 and the charging platform 301 are concentrically distributed with the back connecting hole 303; the distance between two ends of the feeding plate 4 is equal to the width of the charging platform 301, two ends of the feeding plate 4 are provided with baffle plates 401, the outer sides of the baffle plates 401 are respectively provided with a right-end moving block 402 and a left-end moving block 403, the upper parts of the right-end moving blocks 402 are provided with U-shaped grooves, the side surfaces of the U-shaped grooves are connected with the feeding plate 4 in a clamping and embedding manner, the inner parts of the U-shaped grooves are connected with the baffle plates 401 in a clamping and embedding manner, the lower ends of the U-shaped grooves are connected with the charging platform 301 in a sliding manner, the bottom ends of the right-end moving blocks 402 are fixedly connected with sliding plates 404, and the central line positions of the sliding plates 404 are fixedly connected with screw nut seats 803; the left moving block 403 and the right moving block 402 are symmetrically distributed on the centerline of the sliding plate 404; a servo motor 8 is arranged below the workbench 3, the servo motor 8 is rotatably connected with a lead screw 801, the starting position of the front thread of the lead screw 801 is rotatably connected with a head bearing seat 802, the ending position of the tail thread of the lead screw 801 is rotatably connected with a tail bearing seat 804, and a lead screw nut seat 803 is in threaded connection between the head bearing seat 802 and the tail bearing seat 804; connectors 305 are symmetrically distributed on two sides of the screw 801, the connectors 305 are fixedly connected below the workbench 3, the connectors 305 are connected to a bearing table 103 in the central line position of the rack 1 in a clamping and embedding manner, a groove is formed in the central line position of the bearing table 103 and used for penetrating through the screw 801, and a storage compartment 101 is formed between the lower part of the bearing table 103 and the bottom of the rack 1; a transmission shaft 7 is arranged on the right side of the workbench 3, the front section of the transmission shaft 7 is in key connection with a first transmission arm 701, the first transmission arm 701 is in key connection with a second transmission arm 702, the tail end of the second transmission arm 702 is fixedly connected with a moving shaft 704, and a key shaft 703 is arranged at the connection position of the first transmission arm 701 and the second transmission arm 702; the moving shaft 704 is slidably connected in the sliding groove 205; the rear section of the transmission shaft 7 is rotatably connected with a second belt pulley 902, a belt 903 is arranged on the second belt pulley 902, the belt 903 is rotatably connected with a first belt pulley 901, the first belt pulley 901 is rotatably connected with a motor 9, and the motor 9 is fixedly connected in the storage compartment 101 on the right side of the bottom of the rack 1; a T-shaped belt 904 is further arranged on the second belt pulley 902, and the T-shaped belt 904 is rotationally connected with a gear set 905; the left end of the tool rest 2 is slidably connected into a through hole in the left side of the rack 1, a lightening groove is formed in the center of the tool rest 2, a through groove 201 is formed between the lightening groove and the left end, a first gear shaft 202 is vertically and fixedly connected into the through groove 201, the first gear shaft 202 is meshed with a first spur gear 105, the first spur gear 105 is rotatably connected to one end of a synchronous motor 102, the other end of the synchronous motor 102 is rotatably connected with a second spur gear 104, the second spur gear 104 is meshed with a second gear shaft 204, and the second gear shaft 204 is vertically and fixedly connected into a vertical through hole in the left end of a pressing table 603; the first spur gear 105 and the second spur gear 104 are symmetrically distributed on the axis of the synchronous motor 102; the right end of the tool rest 2 is connected with the rack 1 in a sliding mode, a sliding groove 205 is formed between the right end of the tool rest 2 and the right end of the lightening groove, an included angle between the central line of the sliding groove 205 and the horizontal line is 40-50 degrees, the sliding groove 205 is connected with a moving shaft 704 in a sliding mode, a gear set 905 is arranged on the back face of the right end of the tool rest 2, the axis of the gear set 905 is perpendicular to the central line of the sliding groove 205, the gear set 905 is meshed with a third gear shaft 203, and the third gear shaft 203 is fixedly connected into a vertical through hole in the right end of the pressing table 603; a cutter group 6 is arranged below the cutter frame 2, connecting grooves 606 are uniformly distributed on the surface of the cutter group 6, the connecting grooves 606 are horizontally and fixedly connected with a cutter head 602, a cutter 607 penetrates through the cutter head 602, the upper end of the cutter 607 bears a pressing plate 601, the upper part of the pressing plate 601 bears a boss 605, the boss 605 is fixedly connected to the back of a pressing table 603, comb teeth 604 are arranged on the front of the pressing table 603, the width of the boss 605 is consistent with that of the pressing table 603, and the boss 605 is higher than the position between the horizontal center line and the top end of the pressing table 603; two sides of the pressing table 603 are provided with vertical through holes, the left end vertical through hole is fixedly connected with the second gear shaft 204, the right end vertical through hole is fixedly connected with the third gear shaft 203, and the lower end of the cutter 607 is parallel to the upper surface of the workbench 3; the storage compartment 101 is long between the end surfaces of two sides of the rack, is higher between the lower part of the bearing platform 103 and the bottom of the rack 1, and a detachable baffle 106 is arranged in the storage compartment 101 to divide the storage compartment 101 according to actual operation requirements.

The working principle of the invention is as follows:

pre-adjusting the facial mask slice mixing device, lifting the knife rest 2 to the highest position, loading an applicable knife head 602, adjusting the knife, adjusting the pressure table 603 to enable comb teeth 604 of the pressure table to compress non-woven fabrics, meanwhile, enabling a boss 605 to press down the pressure plate 601, adjusting the knife again, and putting down the knife rest 2; connecting a water pipe 304 externally to the connecting hole 303, connecting essence and other related auxiliary agents to the other end of the water pipe 304, adjusting the water pipe 304 to enable the essence to be pumped out and sprayed onto the surfaces of the workbench 3 and the charging stand 301 at high pressure, meanwhile, enabling part of non-woven fabric to penetrate through, performing spraying treatment, wetting the upper surfaces of the workbench 3 and the charging stand 301, turning on the ultraviolet lamp 10 to finish a pre-adjusting step, stacking the non-woven fabrics on the charging stand 301, adjusting the left baffle plate 401 and the right baffle plate 401 to enable the non-woven fabrics to be fixed left and right, adjusting the servo motor 8, driving the lead screw 801 to rotate by the servo motor 8, driving the lead screw nut seat 803 to move back and forth and simultaneously driving the sliding plate 404, the right moving block 402 and the left moving block to move simultaneously, finally enabling the feeding plate 4 to move forward rapidly, pushing the non-woven fabrics to be pushed below the tool rest 2 and the pressing stand 603, lowering the pressing stand 603, fixing the non-woven fabrics, turning on a water pump, and transmitting the essence, make non-woven fabrics and essence fully contact and absorb, continue to transfer and press platform 603, the cutter 607 cuts into in the non-woven fabrics, and knife tackle 6 is with non-woven fabrics lateral separation, gets rid of leftover bits, accomplishes the precut.

Starting the motor 9 and the synchronous motor 102, increasing the essence liquid extraction force, starting the servo motor 8, the servo motor 8 driving the lead screw 801 to rotate, the lead screw 801 driving the lead screw nut seat 803 to move back and forth and simultaneously driving the slide plate 404, the right end moving block 402 and the left end moving block 403 to move simultaneously, finally enabling the feeding plate 4 to move forward rapidly, when the non-woven fabric is pushed to the lower part of the tool holder 2 and the pressing table 603, the servo motor 8 automatically reduces the rotation speed, simultaneously the started gear set 905 driven by the motor 9 rotates, the gear set 905 driving the second gear shaft 204 to move up and down, enabling the pressing table 603 to rapidly press the non-woven fabric while the rotation speed of the servo motor 8 is reduced, continuing to press down, the motor 9 driving the second belt pulley 902 to rotate, the second belt pulley 902 driving the transmission shaft 7 to rotate, the transmission shaft 7 simultaneously driving the first transmission arm 701 and the second transmission arm 702 to do sector motion, so that the moving shaft 704 moves up and down in the chute 205, the movable shaft 704 is matched with the sliding groove 205 to provide the capability of quickly moving the cutter group up and down, so that a cutter 607 installed on the cutter group 6 is cut into the non-woven fabric, a facial mask is cut out according to needs, the cutter group 6 is lifted, the pressing table 603 leaves the non-woven fabric, the rotating speed of the servo motor 8 is automatically increased, when a new non-woven fabric is pushed to the position below the cutter frame 2 and the pressing table 603, the cut facial mask is pushed onto the workbench 3 at the same time, one-time cutting is completed, the cutting is circularly started on the next step, all the non-woven fabrics are cut off, the servo motor 8 rotates reversely, the feeding plate 4 moves backwards quickly, new non-woven fabrics are filled, the essence extraction force is increased, essence soaking is waited, and a new round of cutting can be started.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, "upper," "lower," "left," and "right," and the like are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed.

Secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures may refer to general designs, and the same embodiment and different embodiments of the present invention may be combined with each other without conflict.

And finally: the above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.